US5720281A - Eye shield for a respiratory mask - Google Patents

Abstract

A respiratory mask is provided with an eye shield having a body portion which is releasably-secured to the mask, and a shield portion which shields the eyes of the wearer. The shield portion is self-supporting on the body portion and, hence, on the mask, and includes a sheet of transparent, eye-shielding, material which can be replaced if it becomes marked or damaged. The shield portion can be pivoted forwards, relative to the mask, so that it is removed from the line of vision of the wearer without affecting the respiratory protection provided by the mask. A valve arrangement in the body portion of the eye shield can divert air from the mask into the shield portion, to remove contaminants from the region around the eyes of the wearer.

Description

This is a division of application Ser. No. 08/433,808 May 3, 1995 pending.

The present invention relates to respirator masks, that is masks that will provide respirator protection against contaminants, for example solid particles, mists, gases and vapours, in the air.

Respirator masks are worn by people working in environments where toxic or noxious contaminants are present in the air. Paint spraying, for example, is an occupation that can generate such contaminants, making the use of respiratory masks highly desirable and usually essential. Some activities may also generate flying particles or droplets, or contaminants that can irritate the eyes, in which case it is important for workers to use some form of eye protection as well as respiratory protection.

Various forms of respiratory protection are available, some of which also provide protection for the eyes. A full face mask, for example, covers the wearer's entire face and will provide protection both for the eyes and the respiratory system, as will a hood or helmet that covers the wearer's entire head. A half or quarter mask, on the other hand, does not cover the eyes, and the wearer will be required to use some form of separate eye shield or goggles if the eyes need protection. However, eye shields and goggles are not always easy to fit or remove when a half or quarter mask is being worn. Moreover, while the protection offered by a simple eye shield or by goggles is quite adequate in certain circumstances, it is limited and would not generally be particularly effective against mists and vapours.

A paint spray worker encounters particular problems when using respiratory protection such as a full face mask (or a hood or helmet that covers the entire head) because the lens, or viewing window, tends to be splashed by paint which impairs the wearer's vision. It is possible to protect the lens by using a film cover which can be removed when it becomes obscured, and it is also known to provide a secondary lens over the primary lens for the same purpose. However, those arrangements do not generally improve the wearer's vision because the film cover or secondary lens can cause multiple reflections. Consequently, the wearer will often lift the respirator away from the face to obtain a better view of the work that is being carried out and, in doing so, loses not only eye protection but also respiratory protection at a time when contaminants are still present in the air.

It is known to circulate air inside a respiratory mask with a view to preventing the wearer's vision from being impaired by the formation of mist on the inside surface of the lens and, in some cases, that circulated air is subsequently passed into the breathing circuit of the mask. Such air circulation does not, of course, protect the outside surface of the lens from being marked during use

The present invention provides an eye shield for use in combination with a respiratory mask which is adapted to fit to, and seal against, the face of a wearer, the eye shield comprising an eye-shielding portion, and attachment means by which the eye shield can be releasably-secured to the mask in positive engagement therewith and positioned to shield the eyes of a wearer without, in use, requiring means for securing the eye shield to the head of the wearer.

The present invention also provides a respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield movable between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from, and located below, the line of vision of the wearer, wherein the respiratory protection afforded by the mask is unaffected by the position of the eye shield.

The present invention further provides a respiratory, mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, and which includes an exhalation valve through which air leaves the mask, the mask being in combination with an eye shield to provide protection to the eyes of the wearer, and valve means having a diverter position in which the valve means diverts air that has passed through the exhalation valve to the interior of the eye shield.

In accordance with another aspect of the invention, there is provided a respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which comprises a frame shaped to extend across, and around the sides of, the face of a wearer and to enclose a sheet of eye-shielding material, wherein the sheet of eye-shielding material is a flat sheet and is removably-held in the frame.

In accordance with a still further aspect of the invention, there is provided a respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which is pivotally movable relative to the mask whereby the position of the eye shield relative to the face of a wearer can be adjusted, the eye shield including resilient means arranged to bias the eye shield in the direction of the face of the wearer.

By way of example only, embodiments of the invention will be described with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view of a respiratory mask;

FIG. 2 is a front view of the facepiece of the mask shown in FIG. 1;

FIG. 3 is a perspective view (generally in the same direction as FIG. 1) of an eye shield for use with the mask shown in FIG. 1;

FIG. 4 is a side view of the eye shield shown in FIG. 3;

FIG. 5 is a side view of the eye shield in the same direction as FIG. 4 but showing the frame portion of the shield being moved to its lowered position;

FIG. 6 is a perspective view (generally in the same direction as FIGS. 1 and 3) showing the eye shield attached to the mask of FIG. 1;

FIG. 7 is a view of the lens of the eye shield, removed from the frame;

FIG. 8 is a perspective view, broken away, showing the inside of the frame and the body portion of the eye shield;

FIG. 9 is a cross-section through the eye shield as it is shown in FIG. 4, but viewed from the other side;

FIG. 10 is a cross-section through the eye shield as it is shown in FIG. 5, but viewed from the other side;

FIG. 11 is a view similar to that of FIG. 9, but showing a valve flap in an alternative position; and

FIG. 12 is a cross-section similar to FIG. 9, through the eye shield attached to the mask.

Themask 1 shown in FIG. 1 is a half mask, that is, it is intended to fit over the nose, mouth and chin of the wearer. The mask comprises afacepiece 2, best seen in FIG. 2, which is formed from a soft, compliant material (for example, a rubber material) and has an inturned cuff (not visible) around its edge, which will form a seal against the wearer's skin. Thefacepiece 2 comprises a central portion 3 containing a nose opening 4, and two swept-back side portions 5 each containing acheek opening 6. The mask also comprises a rigid insert which is positioned against, and sealed to, the rear side of thefacepiece 2 and which provides the mask with nose andcheek portions 8 and 9, respectively, in the nose andcheek openings 4, 6.

The central part of thenose portion 8 is substantially flat and contains anose aperture 10 which houses an exhalation valve (not visible). A valve cap 11 (FIG. 1), to whichadjustable straps 12 are attached, is clipped over thenose aperture 10. Eachcheek portion 9 contains acheek aperture 13 which houses an inhalation valve (also not visible) and provides a bayonet fitting 15 for a filter cartridge 14 (FIG. 1). Alternatively, an air supply line (not shown) can be connected to thecheek apertures 13, in place of thefilter cartridges 14.

In use, thestraps 12 are adjusted to fit the head of the wearer and to hold themask 1 against the wearer's face. If the mask is fitted withfilter cartridges 14, as shown in FIG. 1, filtered air is drawn into the mask through the inhalation valves in thecheek apertures 13 when the wearer breathes in, and exhaled air is expelled through the exhalation valve in thenose aperture 10 when the wearer breathes out. That mode of use is known as "the filtering mode". If the mask is attached to an air supply line, a supply of clean air is fed continuously from the line into the mask through the inhalation valves in thecheek apertures 13. Only some of that air will be inhaled by the wearer, with the result that unused (excess) clean air will be expelled along with exhaled air through the exhalation valve in thenose aperture 10. That mode of use is known as "the supplied air mode".

Masks of the type shown in FIG. 1 are available from the 3M Company of St. Paul, Minn., U.S.A. under the product description "6000 Series Half Mask".

FIGS. 3 and 4 show aneye shield 20 which can be used with the mask shown in FIG. 1 when it is required to provide protection for the eyes, as well as the respiratory system, of the wearer. The eye shield comprises abody portion 21 which can be clipped over thevalve cap 11 on the mask, and ashield portion 22 which is pivotally attached to the body portion so that it can be rotated forwards, as indicated in FIG. 5, into a lowered position. FIG. 6 shows theeye shield 20 mounted on themask 1, with theshield portion 22 in the raised position, from which it will be appreciated that movement of theshield portion 22 into the lowered position will take the shield portion out of the line of vision of the wearer without affecting the respiratory protection provided by the mask. The manner in which thebody portion 21 is attached to the mask, and the pivotal mounting of theshield portion 22, will be described in greater detail below.

Theshield portion 22 comprises aframe 23 containing thelens 24 of the eye shield, and is shaped so that it will extend across the forehead and around the sides of the face of the wearer to shield the eyes without impeding the wearer's vision. To that end, theupper edge 23a of theframe 23 is curved to follow approximately the line of the wearer's forehead from one temple to the other, and thesides 23b of the frame curve back from thebody portion 21 of the eye shield, to pass behind the wearer's eyes and join the upper edge of the frame at its outer ends. FIG. 6 shows how thesides 23b of the frame are also, shaped to pass above thecheek portions 9 at the sides of themask 1. Theframe 23 is thus generally triangular in shape, with the base of the triangle intended to be located at the forehead of the wearer and the apex of the triangle in the nose region, while the sides of the triangle turn back around the sides of the wearer's face. Theframe 23 is not intended to fit against the face of the wearer and it is self-supporting so that, once attached to the mask, no further means is required to secure it to the head of the wearer. The frame can be formed from any suitable material (preferably one that is solvent resistant) including polyamides, for example nylon; polyesters, for example PET; and polyolefines. The frame may be a moulded component but could also be cast or thermoformed.

Thelens 24 comprises a flat sheet of a flexible, transparent film material which is secured in theframe 23 at thesides 23b and at the upper andlower edges 23a, 23c so that it adopts the curvature of theupper edge 23a around the face of the wearer (at a sufficient distance from the face to allow, for example, for spectacles to be worn). Thelens sheet 24, which is shown in FIG. 7 removed from the eye shield, is generally triangular in shape to correspond to the shape of theframe 23 and hasopenings 25 in its side edge portions, in positions which correspond to those offixing heads 26 on thesides 23b of the frame, andopenings 27 in its upper and lower edge portions, in positions which correspond to those of locatingposts 28 on the upper andlower edges 23a, 23c of the frame. The locating posts on thelower edge 23c of the frame do not appear in the drawings. Thefixing heads 26, which are shown more clearly in FIG. 8, are generally mushroom-shaped and thecorresponding openings 25 in thelens sheet 24 are provided with radially-extending slits which enable them to be pushed over the fixing heads. The locating posts 28, on the other hand, have a circular crosssection and the correspondingopenings 27 in thelens sheet 24 are simply circular holes.Bands 29a, 29c (which, for clarity, are shown only in FIG. 10) are pivotally mounted on the inside of the upper andlower edges 23a, 23c of the frame, and cooperate with the locating posts 28 to secure thelens sheet 24 in position as will be described below.

To insert thelens sheet 24 into theframe 23, thebands 29a, 29c are first rotated away from the frame to expose theposts 28. Thelens sheet 24 is then positioned in the frame so that theposts 28 are located in theopenings 27 and the fixing heads 26 are pushed into theopenings 25 whereupon the lens sheet will adopt the curvature of theupper frame edge 23a. Thebands 29a, 29c are then rotated back towards the frame so that they lie along the upper andlower edges 23a, 23c and engage theposts 28, thereby trapping the lens sheet in the frame. The lens sheet can be removed from the frame by carrying out the same steps in the reverse order.

Thesheet 24 is formed by die cutting from a sheet of suitable eye-shielding material, for example a polyester or polycarbonate material, and, as described above, can easily be removed from theframe 23 and replaced by a new sheet if it should become marked during use. Thesheet 24 should be able to withstand a certain amount of impact but should also be capable of adopting the curvature of theframe 23.

As already mentioned, theshield portion 22 of the eye shield is pivotally attached to thebody portion 21 so that it can be pivoted forwards, relative to the body portion, as shown in FIG. 5. When the eye shield is attached to a mask that is being worn, that movement will take theshield portion 22 out of the line of vision of the wearer but will not affect the respiratory protection provided by the mask: it allows the wearer to remove the eye protection temporarily, for example to inspect some work that is being carried out, without also removing the respiratory protection. The pivotal mounting 30 of theshield portion 22 is located in the upper end of thebody portion 21, and in theside walls 31a of alower extension 31 of theframe 23, and it allows the shield portion to be pivoted forwards until it hangs freely under gravity (i.e., substantially vertically downwards) from the body portion. In such a position, the shield portion is less likely to pull themask 1 away from the face of the wearer.

Thebody portion 21 of the eye shield will now be described with reference, in particular, to FIGS. 9 to 12. The body portion is a molded item formed, typically, from a material similar to that of theframe 23 and is shaped to fit onto thenose portion 8 of the mask and, in particular, to, clip on to thevalve cap 11. Theclips 32, which can be seen in FIGS. 9 to 12, comprise rearwardly-extendingsurfaces 33 formed as part of the moldedbody portion 21, which extend over the top and bottom of the valve cap 11 (shown in FIG. 12) and havelips 34 which engage behind the valve cap to hold the eye shield firmly on the mask. Theeye shield 20 is then positively engaged with themask 1 and will not, for example, tilt or rotate relative to the mask while it is being worn. Thelower surface 33 has acurved surface 35 extending downwards from it, at the front of the body portion, such that forward pressure on thesurface 35 will cause thesurface 33 to deflect slightly to move the associatedlip 34 out from behind thevalve cap 11 when it is desired to remove the eye shield from the mask.

Arear surface 36 of thebody portion 21 defines apassageway 37 which, when theeye shield 20 is attached to the mask, leads from the space inside the body portion immediately in front of thevalve cap 11 to anoutlet 38 at the top of the body portion on the rear side of thetransparent sheet 24. The purpose of thepassageway 37 will be described below.

Also within thebody portion 21 is aleaf spring 39 which is associated with thelower frame extension 31 of theshield portion 22. Theleaf spring 39 extends across the width of thepassageway 37 within the body portion and is held at each end inslits 40 in side walls of the passageway. When the shield portion is in the raised position, theleaf spring 39 contacts onportion 31b of theframe extension 31, as shown in FIG. 9, and biases the frame in the direction of the face of the person wearing the mask, thereby ensuring that the shield is held in position even if the wearer bends over. In addition, the bias ensures that theupper edge 25 of theframe 23 always rests against the forehead of the wearer, which thus provides a reference point ensuring correct location of the shield relative to the wearer's face. A foam strip (not shown) can be provided on the inside of theupper edge 25 of the frame, in the region of contact with the wearer's face. When theshield portion 22 is in the lowered position, on the other hand,portion 31b of theframe extension 31 moves out of contact with theleaf spring 39, as shown in FIG. 10, leaving the shield portion unbiased and free to accommodate the wearer's movements.

The front of thebody portion 21, immediately in front of thevalve cap 11, is formed by avalve flap 41 which is pivotally-mounted at 42 in the body portion so that it can be rotated about its upper edge between a closed position (shown in FIG. 9) and an open position (shown in FIG. 11) in which the flap extends out from the body portion. A projectingportion 43 is provided on the lower edge of thevalve flap 41 to assist the mask wearer in moving the flap. Upstanding ramp-shapedsurfaces 44 on side walls of thebody portion 21, one on each side of thevalve flap 41, cooperate withlegs 44a on the valve flap and cause thelegs 44a to deflect as the valve flap is moved between the open and closed positions, thereby ensuring that the valve flap is not free to swing when in either the open or the closed position and requires a positive force to move it between those positions. Aclosure surface 45 is formed at the top of the valve flap and extends inwards from the top of the flap into thebody portion 21 and towards thepassageway 37. When thevalve flap 41 is moved to the open position (FIG. 11), theclosure surface 45 extends across, and closes, thepassageway 37 but, when thevalve flap 41 is in the closed position (FIG. 9), thepassageway 37 is open.

When thepassageway 37 is open (i.e., thevalve flap 41 is in the closed position), air that leaves the mask I through the exhalation valve in thenose aperture 10 will be diverted by theflap 41 along thepassageway 37 and into the region on the inside of thetransparent sheet 24. Therear surface 36 of the passageway is shaped adjacent theoutlet 38 to act as a deflector, ensuring that the air leaving the outlet is not directed at the eyes of the wearer but passes instead over the inside surface of thelens sheet 24. That mode of operation is used when the mask is being used in the supplied air mode, when the air leaving the mask is composed mainly of excess clean air. The excess clean air then serves to remove contaminants from the region of the wearer's eyes as it passes behind thelens sheet 24, thus providing protection for the eyes against mists and vapours, and it will also serve to prevent thesheet 24 from misting over and to cool the wearer. The air leaves the eye shield through the spaces between theframe 23 and the wearer's face.

When thepassageway 37 is closed (i.e., thevalve flap 41 is in the open position), air that leaves themask 1 through the exhalation valve in the nose aperture will leave the body portion of the eye shield directly through the opening of thevalve flap 41. That mode of operation is used when the mask is being used in the filtering mode, when the air leaving the mask is exhaled air. It could, however, also be used when the mask is being used in the supplied air mode and the wearer does not need clean air to be fed into the region behind thelens sheet 24.

An eye shield of the type described above and shown in the drawings offers the advantage that it can be used with an available type of half mask, and could readily be adapted for use with other, similar, half masks by modifying the shaping of thebody portion 21. The eye shield is easily secured to, and removed from, a mask and does not require the mask to be modified in any way. In addition, thelens sheet 24 is easily replaced in the event that it becomes marked. The eye shield not only allows the wearer to move theshield portion 22 out of the line of vision without removing the mask, so that respiratory protection is always maintained, but also offers the possibility of effective eye protection when the mask is used in the supplied air mode by using air from the mask to remove contaminants from the region of the wearer's eyes.

It will be appreciated that, although the eye shield described above and shown in the drawings has a number of advantageous features, not all of those features need be provided together. For example, it may not always be necessary to be able to lower theshield portion 22 out of the line of vision of the wearer, in which case the pivotal mounting of the shield portion on thebody portion 21 could be omitted. In some cases, the circulation of air over the inside surface of thelens sheet 24 might always be required, in which case thevalve flap 41 at the front of the body portion could be permanently closed. Alternatively, the circulation of air over the inside surface of thelens sheet 24 may never be required, in which case thevalve flap 41 could be omitted completely.

There are also other modifications that could be made to the eye shield described above and shown in the drawings. For example, although it is straightforward to replace thelens sheet 24 when it becomes marked, it would be possible to protect the sheet with a film cover which can be peeled away. In certain circumstances, theframe 23 for containing thesheet 24 may not be required: in that case, a simple rectangular piece of sheet material could be used instead of the shapedsheet 24. When theframe 23 is used, any suitable arrangement can be employed for securing thesheet 24 in the frame. For example, additional mushroom-shaped fixing heads (similar to the heads 26) could be provided on the upper andlower edges 23a, 23c of the frame instead of the locating posts 28 andbands 29a, 29c. Alternatively, slots could be provided in the upper and lower edges of the frame, to receive the upper and lower edge portions of the lens sheet. As a further alternative, thelens sheet 24 could be located in theframe 23 by means of a suitable peelable adhesive.

It is also not essential for the eye shield to be attached to thevalve cap 11 of the mask: if thebody portion 21 were extended sideways, the eye shield could, for example, be attached to the mask at thecheek portions 9 using afilter cartridge 14 to secure it in place. Alternatively, the mask straps 12 could be used as attachment points for the eye shield. When thevalve cap 11 is used as the attachment location, it could be formed as an integral part of thebody portion 21 of the eye shield rather than as a separate component. Moreover, it is not essential for the eye shield to be attached to the mask by clips as described: any appropriate means of attachment could be used including, for example, adhesive strips or hook-and-loop fastenings.

The pivotal mounting of theshield portion 22 of the eye shield need not be located at the top of thebody portion 21, although that is a particularly convenient location because it allows the shield portion to hang vertically downwards when it is in the lowered position without being directly adjacent the body of the wearer. Theshield portion 22 could, as an alternative, be mounted on the lower part of thebody portion 21 but would then hang lower, and closer to the body of the wearer. It is also not essential for theshield portion 22 to be mounted on pivots on thebody portion 21 as illustrated: it could, as an alternative, be hinged to the body portion.

Thediverter valve flap 41 and associatedclosure surface 45 could be replaced by any other suitable valve arrangement that would function to direct air from the mask either to the eye region of the wearer or the atmosphere. As a further modification, the valve flap 41 (or alternative valve arrangement) could have one or more intermediate positions in which only some of the air from the mask is directed to the eye region of the wearer and the rest is directed to atmosphere. In some cases, it may be desirable that the valve arrangement never directs all of the air from the mask to the eye region of the wearer but always allows some of that air to escape to atmosphere.

It will also be appreciated that use of an eye shield of the type described above and shown in the drawings is not restricted to half masks. An eye shield of the type described could be used with a full face mask, either to provide additional protection for the wearer (for example, against ultraviolet radiation) or to provide inexpensive and disposable protection for the mask.

Claims (12)

We claim:

1. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield wherein the eye shield is pivotally movable, relative to the remainder of the mask, between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from, and located below, the line of vision of the wearer, wherein the respiratory protection afforded by the mask is unaffected by the position of the eye shield.

2. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield in which the eye shield is mounted on a central region of the mask, which central region is located adjacent the nose region of the wearer when the mask is in use, wherein the eye shield is pivotally movable, relative to the remainder of the mask, between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from, and located below, the line of vision of the wearer, wherein the respiratory protection afforded by the mask is unaffected by the position of the eye shield.

3. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield movable between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from, and located below, the line of vision of the wearer, wherein the eye shield hangs substantially vertically downwards from the remainder of the mask when in the second position and wherein the respiratory protection afforded by the mask is unaffected by the position of the eye shield.

4. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield movable between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from, and located below, the line of vision of the wearer, wherein the mask includes resilient means arranged to bias the eye shield in the direction of the face of the wearer when the eye shield is in the first position and wherein the respiratory protection afforded by the mask is unaffected by the position of the eye shield.

5. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, and which includes an exhalation valve through which air leaves the mask, the mask being in combination with an eye shield to provide protection to the eyes of the wearer, the eye shield including valve means having a diverter position in which the valve means diverts air that has passed through the exhalation valve to the interior of the eye shield.

6. A respiratory mask as claimed in claim 5, in which the exhalation valve is located in a central portion of the mask, and the diverter valve means is positioned in front of the exhalation valve.

7. A respiratory mask as claimed in claim 5, including a deflector which is so arranged that, when the valve means is in the diverter position, air that has passed through the exhalation valve is directed by the deflector over the internal surface of the eye shield.

8. A respiratory mask as claimed in claim 7, in which the valve means has at least one position in which some, at least, of the air that has passed through the exhalation valve is directed outside the eye shield.

9. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which comprises a frame shaped to extend across, and around the sides of, the face of a wearer and to enclose a sheet of eye-shielding material, wherein the sheet of eye-shielding material is a flat sheet and is removably-held in the frame, in which the frame is generally triangular in shape, the apex of the triangle being located in the nose region of the mask and the base of the triangle being shaped to extend across, and around the sides of, the forehead of a wearer.

10. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which is pivotally movable relative to the mask whereby the position of the eye shield relative to the face of a wearer can be adjusted, the eye shield including resilient means arranged to bias the eye shield in the direction of the face of the wearer.

11. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which is pivotally movable relative to the mask whereby the position of the eye shield relative to the face of a wearer can be adjusted, the eye shield including resilient means arranged to bias the eye shield in the direction of the face of the wearer in which the eye shield is pivotally movable between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from the line of vision of the wearer, and in which the resilient means is arranged to bias the eye shield in the direction of the face of the wearer when the eye shield is in the first position.

12. A respiratory mask which is formed to fit to, and seal against, the face of a wearer to provide respiratory protection, the mask being in combination with an eye shield which is pivotally movable relative to the mask whereby the position of the eye shield relative to the face of a wearer can be adjusted, the eye shield including resilient means arranged to bias the eye shield in the direction of the face of the wearer in which the eye shield is pivotally movable between a first position in which it is positioned to shield the eyes of a wearer and a second position in which it is removed from the line of vision of the wearer, and in which the resilient means is arranged (1) to bias the eye shield in the direction of the face of the wearer when the eye shield is in the first position and (2) not to act on the eye shield when the eye shield is in the second position.

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